Data science has been reshaping almost every industry with massive hiring growth over the last few years. Data is the most valuable asset, and businesses are eager to put time and money into analyzing heaps of data and focus their output on generating the highest ROI.
The data science market is set to grow from USD 95.3 billion in 2021 to USD 322.9 billion by the end of 2026. But what makes data science applications so popular, and why is it the most sought-after career option of the day? We’ll answer these questions and more in this post.
What is Data Science?
Data science is the field of study that mines and analyzes large sets of unstructured data to extract hidden patterns and meaningful information. The concerned team then makes critical business decisions using the data generated. It uses many modern tools and methods, such as complex machine learning algorithms, to make predictive models that can be used to make decisions.
Data science experts apply algorithms to an array of data types ranging from texts, numbers, images, audio, video, and much more to run artificial intelligence (AI) systems that emulate the human brain and its abilities. Finally, enterprise leadership uses AI systems’ insights and translates the findings into tangible business value.
Apart from intense machine learning algorithms, the field of data science includes statistics, computer science, inference, predictive analysis, and many contemporary technologies. The data used for research comes from several unrelated sources, including enterprise databases and application log files. Not only can data analytics help us with day-to-day applications like the Google Maps navigation system, but it also runs complex applications like maneuvering self-flying drones.
Data science: Process and lifecycle
A typical data science lifecycle process creates better prediction models with the help of statistical analysis and machine learning algorithms. The primary steps in the data science lifecycle are as follows:
- Business identification: As the first step, data scientists and domain experts determine how to use data science applications in a particular domain. Then appropriate tasks are jotted down to help with the process.
- Business understanding: In this step, data across the enterprise is explored by understanding the data, its type, structure, and importance. Additionally, graphical plots are designed to explore the available information.
- Data collection: Data is collected using various software systems from different sources like surveys, social media, enterprise data, statistical outputs, transactional data, and archives. It’s a crucial step because data plays a significant role in any data science project.
- Pre-processing data: Once it is collected in various formats and forms, it’s converted into a single format for better processing. So, the team constructs a data warehouse first and then designs an Extract, Transform, and Loading (ETL) process to perform the data aggregation process.
- Data analysis: In this stage, a data engineer employs various statistical tools over the collected data to understand the data well.
- Data modeling: After the data engineers visualize the data, they pick up a suitable model that suits the business needs. They choose to depend on the problem, whether it’s a regression, classification, or clustering problem.
The components of data science
Understanding and adhering to the core components of data science will ensure actual business value. The four key components include:
1. Data strategy: This strategy determines what data you will collect and why. It identifies mission-critical data after closely evaluating the business goals. So, to be precise, picking up a suitable mathematical technique or technology is not the goal of a data strategy; instead, it only talks about the data that address a particular business opportunity or problem.
2. Data engineering: It involves dozens of technologies and software solutions to access, process, organize and use the data. In addition, data pipelines and endpoints are leveraged to create an entire data system. So, to facilitate the process, not only does a data engineer need to work on a wide array of technologies and frameworks, but they should also be competent enough to combine them and create workable data pipelines.
3. Data analysis and models: This is the heart of the data science process, where machine learning algorithms and mathematical techniques feed on input data and create a model of a particular system. The model then produces insights or predictions about a service or product.
4. Data visualization and operationalization: This is the ‘human’ moment in the data analytical process. After all the analysis and modeling are done, the analytical team looks at the analyzed data and interprets the data science output. As a result, they make decisions and conclusions to take further action.
What are the tools and applications used in data science?
Most data scientists use the following tools:
SAS is proprietary software widely used by professionals and large enterprises to analyze volumes of data. It’s primarily designed to carry out statistical operations. However, SAS is expensive.
Apache Spark, an analytical engine, is a powerful data science tool. Its built-in APIs allow data engineers to access data repeatedly for SQL storage, machine learning, and other purposes. In addition, Spark can generate dynamic predictions with data.
Developers often use a specialized data visualization package for the R programming language known as ggplot2. It comes with powerful commands to create informative illustrations and visualizations. In addition, data scientists use ggplot2 libraries to customize and enhance storytelling.
When it comes to programming languages, data scientists love Python. It provides a massive inventory of libraries and practical functionalities to deal with statistics, mathematics, and scientific functions. Additionally, Python APIs have made the language incredibly versatile and productive.
Popular technologies in data Science
The Benefits of Data Science
Why do enterprises find it challenging to ignore data science tools? Let’s take a look.
- Business Predictions Made Easy: Data Science provides data structuring and predictive analysis using cutting-edge technology to analyze your organization’s data layout. Besides, the research outcome helps you make future decisions that align with your business goals.
- Data-Driven Marketing: You can offer tailored solutions and products to your customers with the help of data. Data Science provides precise insights to your sales and marketing teams and helps them outline a complete customer journey map.
- Business Intelligence: A detailed view of enterprise data improves adaptability and eliminates inefficiencies. Business Intelligence or BI combines data mining, tools, visualization, and other best practices to help your company make better data-driven decisions.
- Improves Information Security: Data Scientists create fraud-prevention systems to safeguard your customers. Additionally, Data Science processes can help identify vulnerable architectural flaws by analyzing recurring patterns in enterprise systems.
Top Use Cases for Data Analytics
Concrete, real-world tasks help us gauge the potency of data science better.
- Healthcare: Data analytics in healthcare benefits the marketing team with interpreted data and also helps save lives through a timely diagnosis of life-threatening diseases. The innovative analytical techniques feed on numerous healthcare data sources such as health record systems, medical research studies, billing documents, wearable devices, and more.
- Logistics: The efficiency of a transport and logistics company depends on countless unforeseen factors, including weather conditions, quality of roads, fuel price volatility, traffic issues, emergencies, and the list goes on. Data Sciences has enormous potential for tracking transportation processes end-to-end, optimizing routes, delivering on time, calculating costs dynamically, monitoring vehicle conditions, and improving customer support.
- Telecom: Telecommunication technologies are booming at a rapid pace. Moreover, the COVID-19 pandemic age demands seamless digital connectivity across all spheres. Data analytical approaches can help the telecom sector by streamlining operations, optimizing networks and data transmission, filtering out spam, increasing revenue, and developing efficient marketing campaigns and business strategies.
The Future and Impact of Data Science
Data science has become invaluable to businesses across the spectrum. As a result, someone who knows how to churn out valuable insights from massive data is in great demand. Here are some ways that data scientists add value to businesses.
- Executives become better decision-makers: With the ability to communicate and demonstrate the value of enterprise data, a data scientist works closely with higher management and becomes a strategic partner. A data analyzer tracks, measures, and records various performance metrics to rev up and improve decision-making processes.
- Define achievable goals: A data scientist improves operational performance, engages customers, and eventually increases profitability by prescribing actions based on trends and not on the leadership’s whims.
- Focus on best practice: An essential responsibility of a data scientist is to train the staff to get familiar with the organization’s analytics product. Once the teams get well-versed in the product capabilities, they can adopt best practices to address business challenges.
- Spot opportunities: Data scientists are always looking for ways to improve the assumptions and processes that are already in place. The goal is to extract more and more value from the enterprise data.
- Test the choices: Making decisions and implementing the changes is one part of the game, but testing the impact of those changes at the enterprise level is equally vital. So, yet again, data scientists measure key metrics and quantify the success for everyone to witness.
Q1. How are data science and cloud computing interrelated?
With the growing popularity of big data, businesses are storing large amounts of data in the cloud. As part of the analytical process, data scientists examine cloud data. As a result, data science and cloud computing are inextricably linked.
When both data science and cloud computing software technologies are used in a company, there is a chance that the company’s revenue will increase while its investment costs will decrease. Cloud computing assists in sorting local software, while data science assists in making business decisions.
Q2. What are some standard data science tools used?
Some standard data science tools are:
- Apache Spark: As an analytical engine, Apache Spark is used. It enables you to write a programme to process data clusters while also incorporating data parallelism and fault-tolerance.
- DataRobot: It assists in the development of accurate predictive models for any organization’s real-world problems.
- Tableau: This is the most widely used data visualisation tool on the market. It allows you to convert raw, unformatted data into a processable and understandable format.
- BigML: It provides a fully interactive, cloud-based graphical user interface (GUI) environment for processing Complex Machine Learning Algorithms.
- Jupyter: This is a web-based application tool that runs on the kernel and is used for live coding, visualisations, and presentations.
Q3. What is the difference between Data Science and Data Analytics?
The following are some distinctions between data science and data analytics:
Python is the most commonly used language for data science, but other languages such as C++, Java, Perl, and others are also used. Knowledge of Python and R is required for data analytics.
Data science necessitates extensive programming knowledge. For data analytics, basic programming skills are required.
Use of Machine Learning
Machine learning algorithms are used in data science to gain insights. Machine learning is not used in data analytics.
Data science employs data mining activities in order to obtain meaningful insights. For drawing conclusions from raw data, Hadoop-based analysis is used.
Data science is mostly concerned with unstructured data, whereas data analytics is concerned with structured data.
Q4. How do industries rely on Data Science?
Most industries today are largely information-driven, and data science is the perfect tool to help them obtain sustainable development by making them market-ready.
Through data science, businesses in health care, finance, energy, media, and other industries are discovering insights from big data that help them make strategic decisions, optimize outcomes, cut costs where necessary, and increase productivity.
Data science is being applied to a variety of industries, with dramatic results. Operational efficiencies are increasing significantly, resulting in higher revenue margins.
Q5. What is the difference between Data Science and Artificial Intelligence?
Some of the differences between data science and artificial intelligence are:
- Data science primarily looks for hidden trends and patterns in data, whereas artificial intelligence promotes machine learning and the automation of processes.
- Data Science is collecting and curating large amounts of data for analysis, whereas Artificial Intelligence is the implementation of this data in a machine to understand it.
- Data science is a set of skills that includes statistical techniques and artificial intelligence algorithm techniques.
- Statistical learning is used in data science, whereas artificial intelligence is a type of machine learning.
- Data science looks for patterns in data to make decisions, whereas AIs look at intelligent reports to make decisions.